Image broadcasting system



1936- w. G. H. FINCH IMAGE BROADCASTING SYSTEM Filed Dec. 24', 1954 2 Sheets-Sheet 1 RECEIVER RECTIFIER; B

ATTORNEY.

Nov. 17, 1936. w. s. H. FINCH IMAGE Bl lOADCA STI [NG SYSTEM Filed Dec. 24, 1934 2 Sheets-Sheet 2 ATTORNEY Patented Nov. 17, 1936 PATENT OFFICE IMAGE naoa oasrmo SYSTEM William G. H. Finch, New York, N. Y. Application December 24, 1934, sci-1c: No. 759,011

REISSUED '12 Claims. (01. 178-5) reduce the cost of the mechanism to a minimum by making all possible use of the radio receiver already available in the home of a user.

Inasmuch as the ordinary home, and particularly where such a facsimile would be used, is

already equipped with a radio receiver, it is desirable that this radio receiver be employed for the reception of the broadcast signals, but this is ordinarily impracticaldue to the fact that the mechanism employed for operating the facsimile heretofore used does not readily lend itself for operation from the standard radio receiver. In accordance with my invention,,I contemplate employing a novel construction of a facsimile receiver which will readily operate from the output of the standard home receiver.

30 Accordingly, an object of my invention is to provide a novel facsimile receiver.

A further object is to provide a novel facsimile receiver operable from the standard home radio receiver.

Still another object of my invention is to provi de a novel arrangement whereby the same mechanism which operates the loudspeaker of a standard home receiver may also be employed for operating the facsimile receiver.

There are other objects which, together with the foregoing, will appear in the detailed description of the invention in connection with the drawings which are to follow, in which:

Figure 1 is a circuit diagram of a preferred form of my invention.

Figure 2 is a schematic illustration, partly in cross-section, of the details ofmy facsimile receiver.

Figure 3 is a top viev w of Figure 2 taken at 3-3.

Figure 4 is a modified form of facsimile receiver employing an electro-chemical method of reception Figure 5Iis a schematic illustration of one'form of transmitter which I may use in carrying out my invention.

Referring now more specifically to Figure 1, signals v received over the antenna 3 are impressed upon the receiver 4 and thence transmitted over switch S to either the facsimile apparatus shown at 6 or to the loudspeaker unit shown at 1 connected to the terminals 8. With the switch 5 in the position shown, the received signals are conducted along the leads 9 to the movable coll ll! of the electro-dynamic motor] I. The electro-dynamic motor ll comprises in addition to the movable coil Ill a fixed coil l2 energized by direct current available from any standard radio receiver. The movable coil I0 is connected to an oscillating stylus in a manner to be described in detail in connection with Figures 2 and 3. 1

The stylus is oscillated by energy received from a synchronous single phase motor l3 set into operation by closing the local circuitswitch M. This motor is preferably driven from a source of alternating current tied into the system supplying power to the motor which drives the transmitter of the same facsimile system. The motors of the transmitter and receiver are thus driven in substantial synchronism,

To the armature of motor l3 there is secured a worm l5 suitably mounted in bearings and meshing with the gears l6 secured to shaft II. In this manner the shaft III is driven in the direction indicated by the arrow. The synchronous disc I8, free to rotate about the shaft I1, is located so'that a pawl l9 operated under the action of spring normally engages ratchet wheel 2! which is secured to and rotates with the shaft i1.

Upon the hollow shaft 22 is secured a cam 23 shaped substantially like the cam shown in detail in my parent application described above, The cam 23 actuates a cam follower 24 pivoted on the shaft 25 through which it oscillates the stylus which will be described hereinafter in detail in connection with Figure 2.

Synchronization and the maintenance of proper phase relation is accomplished by means of the synchronization slow to energize magnet which actuates the armature and pawl 3| pivoted at 32 and held against a stop 38 by tension 1 the spring 34 when the magnet is de-energized. The switch arm 35 is actuated by a projection on the periphery of synchronization disc l8 and is capable of closing its right or lefthand contact, thus switching the incoming signal from the visual signal responsive movable coil windings I0 to the synchronization magnet 30 and vice versa according to the position in which arm 35 is located at the time.

Assuming that the transmitter is in motion and is scanning the picture as shown in my parent application, periodic synchronizing impulses of a special character, 1. e., extra long impulses will betransmitted for synchronization purposes. If the receiver mechanism is in a position corresponding to the position of the transmitter scanner at the instant when the synchronization impulse is received, the magnet 30 will be energized due to the fact that in this position of the receiver the switch 35 has been rocked to engage its right-hand contact, completing the energizing circuit for the synchronization magnet 30. Energization of the magnet will operate its armature about the pivot 32, removing the .tooth of the pawl 8| from the path of the pawl I9 so that the latter will not disengage the ratchet 2| and the motor willcontinue to drive the shaft II. In the event, however, that the receiver is not in synchronism at the time that the synchronizing impulse is being received, the switch arm 35 will be in the position shown. No energizing current will be transmitted to the magnet 30 and accordingly the tooth of the pawl 3| will rock the pawl I9 about its pivot in a counterclockwise direction so that its tooth disengages the ratchet 2| and the motor I3 will be disconnected from the shaft I I, thus bringing the stylus to a stop.

Referring now more specifically to Figure 2 where I have shown the details of my preferred form of recorder, the shaft 25 oscillating in bear-.

ings 45 carries at one end an arm 48. Anchored at arm 46 by suitable means at points 41 and 48 are two resilient stylus supports 49 and 50 in flexible connection with the stylus 5|. As the shaft is oscillated, the arm 46 rocks back and forth. carrying with it the stylus arm 5| which moves in an arc, as shown in Figure 3.

The oscillatory movement of shaft 25 is also transmitted to the moving coil III of the electrodynamic mo'tor II, having windings II.

Moving coil I0 is securely fastened to the oscillating shaft 25 by a screw 52 which holds the I coil in place. However, it permits coil III to move up and down in response to received signals, due to the resilient membrane 53, so shaped as to obtain the motion of the coil I0. This motion by means of a spider frame 55, is, transmitted to the bell crank 56, pivoted at 51. The bell crank 51 is at one end secured to the stylus 5|, carrying at its extremity the pointer 58.

The winding of coil I2 is energized by the direct continuous current available in the ordinary radio receiver. The moving coils I0 are connected to the output of the last tube. When now a signal is received causing the moving coil I0 to oscillate in and out .of the magnetic field of coil I2, it will cause stylus 5| to oscillate in such a manner as to come in contact with the paper 62 and produce an image similar to the one transmitted, with any of the methods previously described. To limit the motion of the stylus 5|, I have provided the screw adjustment 63, which prevents stylus 5| from digging into the paper 52 as the picture is being recorded.

Referring again to Figure 1, it will be noted that the electro-dynamic unit 1 connected to the lead 8 is substantially identical in construction with that of the unit which operates the stylus of the facsimile apparatus, except that in the former case the electro-dynamic unit is employed to operate the diaphragm for generating audible signals, whereas in the facsimile case a similar unit operates the stylus of a facsimile receiver. Inasmuch as the windings of the dynamic unit in both cases are alike, they can be readily operated from the output of the same radio receiver.

In fact, in accordance with one form of my invention, I contemplate employing the same electro-dynamic unit to operate either the diaphragm of a loudspeaker or the stylus by an arrangement for mechanically disconnecting one and connecting the other to be operated by the same movable coil. I0.

Referring now to Figure 4, I have shown another modification of my invention in which the stylus is substituted by a pointer I5 constantly lightly bearing upon a specially treated paper 18.

The pointer 15 is electrically insulated from the machine by suitable means and is connected to one side of the circuit while the other is grounded to the frame of the machine.

Paper impregnated with a solution of various salts has the property of discoloring when interposed between two dii'fering polarities of an electrical circuit and I use this principle to record images by utilizing a. paper so treated and interpose it between the pointer 15 and frame 19.

The remaining apparatus, including the shaft which oscillates the pointer, the motor drive, the guide rolls, the paper feed mechanism, being exactly the same as that described in my parent application, is here shown schematically.

In an alternative arrangement for operating the chemical recorder, I may conduct the current from the lead 80 through the heating coil 8|, thence back over the lead 82 shown in dotted lines. Current passing through the heating coil 8| will then generate sufficient heat to produce a chemical action on the chemically treated paper 'recording sheet.

Referring to Figure 5, I have shown a developed positive film or similar band which I may use at the transmitter. The band |0| moves in the direction of the arrow at a predetermined speed controlled by synchronous single phase motor I02 in a manner to be described hereinafter. Motor I02 may be driven from a standard source such as a sixty or'twenty-five cycle line. Upon film II, the image to be transmitted appears in black and for purposes of illustration, I have shown on Figure 5 an enlarged letter Y drawn in the middle of band IOI. In this case, the letter Y is to be transmitted. On one side of the film II", a relatively wide black line. is drawn, which is shown at I03 in Figure 5, for synchronizing purposes as explained in my parent application.

Behind the picture bearing transparent band IOI, a photo-electric cell I 04, shaped as a section of an arc, is suitably mounted and connected to a suitable amplifier which in turn is connected to the transmitter for transmitting signals.- The transmitter for radio broadcasting may be an oscillator of carrier frequencies modulated by the is m'ountedion and rotates shaft I09 in the direction of the arrow.-

Shaft I09 carries secured thereto a cam IIO which, in revolving, controls cam follower I52, carrying an image scanning device II I, pivoted at II2, to oscillate. Cam follower I52 is held against cam IIO by a spring I53 so that as shaft I09 rotates, arm II I is swept back and forth over and scans the photograph appearing on band I For purposes of simplicity, the mechanism which steps the photographic band IOI forward is not shown in this figure, but at the completion of each cycle of scanning arm I II, the picture containingfilm is fed forward a predetermined amount, depending upon the quality of the pic- A suitable lighting system comprising a source of light of constant intensity, an objective lens and a reflector, capable of bending the light beam 90 degrees, is focussed through the picture upon the photoelectric cell I04. It will be clear that whenever a dark or black portion of the image to be transmitted interposes the light beam between its source and the photoelectric cell I00, a

variation in the current generated by the photoelectric celLin its circuit occurs. In the case of black and white transmission, only two current variations are produced. For transmitting shades between black and'white a.corresponding number of current variations result. In half tone transmission it would be necessary to break up the picture into sections in the manner well known in the art.

When these current variations are amplified and applied to the transmitting equipment, they will be radiated through the air or transmitted by wire to the receiving circuit and related apparatus shown diagrammatically in Figure 1.

, Although I have disclosed specific illustrations of carrying out my invention, it will be understood that it may take'on other forms than that I herein shown. I do not intend tobe limited by the examples here given, but only as set forth in the appended claims.

I claim:

1. In a picture transmitting system; a receiver comprising a pivoted scanner arm; a pointer mounted thereon; a heater coil surrounding said pointer and having circuit connections carried on said scanner arm; a rocking arm on which said scanner arm is mounted; a cam follower secured to said rocking arm; a cam with which said cam follower is held in engagement; 9. source of power for driving said cam;'a record sheet on which a record is to be made; a platen for said paper; and

circuit connections to said platen.

2. In a picture transmittingsystem; a receiver comprising a pivoted scanner arm; a pointer mounted thereon; a heater coil surrounding said pointer and having circuit connections carried on said scanner arm extending to said pivot; a rocking arm on which said scanner arm is mounted; a cam follower secured to said rocking arm; a

cam with which said cam follower is held in engagement; a source of power for driving said cam; a record sheet on which a record is to be made; means whereby power from said source of power is transmitted to feed said record sheet line by line past said pointer for each oscillation of said pivoted scanner arm; a platen for said paper; and circuit connections to said platen.

3..In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet; means for reciprocating said stylus against said sheet; means for continuously heating said stylus comprising an electric heater coil and a source of energy; and means for advancing said record sheet line by line past said stylus at each oscil- ,lation thereof; said record sheet being curved to correspond to the oscillation path of said stylus, and being sensitive to heated impressions. for making a visible record of the marking excursions of said stylus against said sheet to compose a facsimile of the transmitted image.

4. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus, a bracket resiliently carrying said arm, a cam surface rotatable in synchronism withthe transmitter, and a cam follower connected to said bracket and coacting. with said cam surface; and means for reciprocating said stylus against said sheet in response to received picture signals; said record sheet being marked bysaid stylus in accordance with the marking excursions thereof.

5. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus, a bracket resiliently carrying said arm, a cam surface rotatable in synchronism with the transmitter, and a cam follower connected to said bracket and coacting with said cam surface; means .for reciprocating said stylus against said sheet in response to received picture signals; and means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being curved to correspond to the oscillation path, of said stylus, and being marked by said stylus in accordance with the marking excursions thereof to compose a facsimile of the transmitted image. 6. In a facsimile system operable on a continuous record sheet: a stylus; means for oscilff/ ing said stylus; means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being sensitive to heated impressions for making a visible record *ofthe marking excursions of said stylus against said sheet to compose a facsimile of the transmitted image.

7. In a facsimile system operable on a continuous recordsheet: a stylus;-means for oscillating said stylus across said sheetcomprising a scanner arm attached to said stylus, a bracket resiliently carrying said arm, a cam surface rotatable in synchronism with the transmitter, and a cam follower connected to said bracket and coacting with said cam surface; means for reciprocating said stylus against said sheet. in response to received signals; and meansfor advancing said I record sheet line by line past said stylus at each oscillation thereof; said record sheet being chemically treated for being discolored in response to electrical current flow and a source of electrical energy connected between said stylus and said record sheet for making a visible record of the marking excursions of -said stylus against said sheet to compose a facsimile of the transmitted image.

8. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus; means for reciprocating said stylus against said sheet in response to received signals comprising an electrodynamic unit having a stationary magnetizing solenoid, a circular air gap, and a movable coil suspended in said circular air gap electrically connected to the signals and movable in accordance with said signals, and a (mechanical connection between said movable coil and said scanner arm; and means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being marked by said stylus in accordance with the marking excursions thereof to compose a facsimile of the transmitted image. a

9. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus; means for reciprocating said stylus against said sheet in response to received signals comprising an electrodynamic imit having a stationary magnetizing solenoid, a circular air gap, and a movable coil suspended in said circular'air gap electrically connected to the signals and movable in accordance with said signals, and a mechanical connection between said movable coil and said scanner arm, and a rod extending axially through said electrodynamic unit and circular air gap, said movable coil being supported on said rod; and means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being curved to correspond to the oscillation path of said stylus, and being marked by said stylus in accordance with the marking excursions thereof to compose a facsimile of the transmitted image.

10. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus; means for reciprocating said stylus against. said sheet in 'response to received signals comprising an electrodynamic unit having a stationary magnetizing solenoid, a circular air gap, a movable coil suspended in said circular air gap electrically connected to the signals and movable in accordance with said signals, a mechanical con-" nection between said movable coil and said scansaid movable coil being supported on said rod;

means for continuously heating said stylus; and means for advancing said record sheet line by line past-said stylus at each oscillation thereof; said record sheet being sensitive to heated impressions for making a visible record of the marking excursions of said stylus against said sheet to compose a facsimile of the transmitted 'image.- I I 11. In a facsimile system operable on a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus; means for reciprocating said stylus against said sheet in response to received signals comprising an electrodynamic unit having a stationary magnetizing solenoid, a circular air gap, a movable coil suspended in said circular air gap electrically connected to the signals and movable in accordance with said signals, a mechanical connection between said movable coil and said scanner arm, and a rod extending axially through said electrodynamic unit and circular air gap, said movable coil being supportedon said rod; and means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being chemically treatedfor being discolored in response to electrical current flow, and a source of electrical energy connected between said stylus and said record sheet for making a visible record of the marking excursionsof said stylus against said sheet to compose a facsimile of the transmitted image.

12. In a facsimile system operable on, a continuous record sheet: a stylus; means for oscillating said stylus across said sheet comprising a scanner arm attached to said stylus, a bracket compliantly carrying said arm, a cam surface rotatable in synchronism with the transmitter and a cam follower connected to said bracket and coacting' with said cam surface; means for reciprocating said stylus against said sheet in response to received signals comprising an electrodynamic unit having a stationary magnetizing solenoid, a circular air gap, a movable coil suspended in said circular air gap electrically connected to the signals and movable in accordance with said signals, a mechanical connection, between said movable coil and said scanner arm, and a rod extending axially through said electrodynamic unit and circular air gap, said movable coil being supported on said rod; and means for advancing said record sheet line by line past said stylus at each oscillation thereof; said record sheet being marked by said stylus in accordance with the WILLIAMG. H. FINCH. 

